Protection of Pancreatic Islets Using Theranostic Silencing Nanoparticles in a Baboon Model of Islet Transplantation.
Thomas PomposelliPing WangKazuhiro TakeuchiKatsunori MiyakeYuichi AriyoshiHironosuke WatanabeXiaojuan ChenAkira ShimizuNeil RobertsonKazuhiko YamadaAnna MoorePublished in: Diabetes (2020)
The long-term success of pancreatic islet transplantation (Tx) as a cure for type 1 diabetes remains limited. Islet loss after Tx related to apoptosis, inflammation, and other factors continues to limit Tx efficacy. In this project, we demonstrate a novel approach aimed at protecting islets before Tx in nonhuman primates (NHPs) (baboons) by silencing a gene (caspase-3) responsible for induction of apoptosis. This was done using siRNA (siCas-3) conjugated to magnetic nanoparticles (MNs). In addition to serving as carriers for siCas-3, these nanoparticles also act as reporters for MRI, so islets labeled with MN-siCas-3 can be monitored in vivo after Tx. In vitro studies showed the antiapoptotic effect of MN-siCas-3 on islets in culture, resulting in minimal islet loss. For in vivo studies, donor baboon islets were labeled with MN-siCas-3 and infused into recipient diabetic subjects. A dramatic reduction in insulin requirements was observed in animals transplanted with even a marginal number of labeled islets compared with controls. By demonstrating the protective effect of MN-siCas-3 in the challenging NHP model, this study proposes a novel strategy to minimize the number of donor islets required from either cadaveric or living donors.
Keyphrases
- type diabetes
- oxidative stress
- cell death
- magnetic nanoparticles
- pet imaging
- room temperature
- endoplasmic reticulum stress
- cell cycle arrest
- glycemic control
- magnetic resonance imaging
- cardiovascular disease
- genome wide
- copy number
- dna methylation
- drug delivery
- metal organic framework
- ultrasound guided
- contrast enhanced
- cell proliferation
- adipose tissue
- skeletal muscle
- cancer therapy
- bone marrow
- ionic liquid